def __init__(self): self.current_publisher = rospy.Publisher('CurrentSensor/battery_current_draw', Float64, queue_size=10) self._hz = rospy.get_param('~hz' , 50) try: """ * Allocate a new Phidget Channel object """ ch = CurrentInput() channelInfo = ChannelInfo() channelInfo.deviceSerialNumber = 539331 channelInfo.hubPort = 2 channelInfo.isHubPortDevice = 0 channelInfo.channel = 0 ch.setDeviceSerialNumber(channelInfo.deviceSerialNumber) ch.setHubPort(channelInfo.hubPort) ch.setIsHubPortDevice(channelInfo.isHubPortDevice) ch.setChannel(channelInfo.channel) ch.setOnAttachHandler(onAttachHandler) ch.setOnDetachHandler(onDetachHandler) ch.setOnErrorHandler(onErrorHandler) ch.setOnCurrentChangeHandler(onCurrentChangeHandler) """ * Open the channel with a timeout """ print("\nOpening and Waiting for Attachment...") try: ch.openWaitForAttachment(5000) except PhidgetException as e: PrintOpenErrorMessage(e, ch) raise EndProgramSignal("Program Terminated: Open Failed") except: pass
def __init__(self): self.current_publisher = rospy.Publisher( 'CurrentSensor/battery_current_draw', Float64, queue_size=10) self._hz = rospy.get_param('~hz', 50) try: """ * Allocate a new Phidget Channel object """ ch = CurrentInput() channelInfo = ChannelInfo() channelInfo.deviceSerialNumber = 539331 channelInfo.hubPort = 2 channelInfo.isHubPortDevice = 0 channelInfo.channel = 0 ch.setDeviceSerialNumber(channelInfo.deviceSerialNumber) ch.setHubPort(channelInfo.hubPort) ch.setIsHubPortDevice(channelInfo.isHubPortDevice) ch.setChannel(channelInfo.channel) ch.setOnAttachHandler(onAttachHandler) ch.setOnDetachHandler(onDetachHandler) ch.setOnErrorHandler(onErrorHandler) ch.setOnCurrentChangeHandler(onCurrentChangeHandler) """ * Open the channel with a timeout """ print("\nOpening and Waiting for Attachment...") try: ch.openWaitForAttachment(5000) except PhidgetException as e: PrintOpenErrorMessage(e, ch) raise EndProgramSignal("Program Terminated: Open Failed") except: pass
class AxisFrame: def __init__(self, master, initial_name, move_pos_text, move_neg_text, serial_number, port, color, amp, vel): frame = Frame(master, borderwidth=2, relief=SUNKEN, bg=color) frame.pack() self.master = master self.frame_name = StringVar() self.frame_name.set(initial_name) self.fontType = "Comic Sans" #Set the parameters for the axis self.current_limit = amp #2 to 25A self.max_velocity = vel #0 to 1 self.acceleration = 1 #0.1 to 100 self.invert = FALSE #TRUE or FALSE self.axis_name = initial_name self.move_pos_text = move_pos_text self.move_neg_text = move_neg_text self.current_text = StringVar() self.jog_pos_btn = Button(frame, text=self.move_pos_text) self.jog_neg_btn = Button(frame, text=self.move_neg_text) self.configure_btn = Button(frame, text="CONFIGURE", font=(self.fontType, 6), command=lambda: self.configure()) self.current = Entry(frame, width=5, state=DISABLED, textvariable=self.current_text) self.speed = Scale(frame, orient=HORIZONTAL, from_=0.01, to=1, resolution=.01, bg=color, label=" Axis Speed", highlightthickness=0) self.custom_label = Label(frame, textvariable=self.frame_name, font=(self.fontType, 14), bg=color) self.label = Label(frame, text=initial_name, bg=color) self.speed.set(0.25) frame.rowconfigure(0, minsize=30) self.custom_label.grid(row=0, column=0, columnspan=2, sticky=S) self.jog_pos_btn.grid(column=0, row=1, pady=10) self.jog_neg_btn.grid(column=0, row=2, pady=10) self.current.grid(column=0, row=3, pady=5) self.speed.grid(column=0, row=4, padx=20) self.configure_btn.grid(column=0, row=5, pady=5) self.label.grid(column=0, row=6) #Connect to Phidget Motor Driver self.axis = DCMotor() self.axis.setDeviceSerialNumber(serial_number) self.axis.setIsHubPortDevice(False) self.axis.setHubPort(port) self.axis.setChannel(0) self.axis.openWaitForAttachment(5000) self.axis.setAcceleration(self.acceleration) self.axis_current = CurrentInput() self.axis_current.setDeviceSerialNumber(serial_number) self.axis_current.setIsHubPortDevice(False) self.axis_current.setHubPort(port) self.axis_current.setChannel(0) self.axis_current.openWaitForAttachment(5000) self.axis_current.setDataInterval(200) self.axis_current.setCurrentChangeTrigger(0.0) self.update_current() #Bind user button press of jog button to movement method self.jog_pos_btn.bind('<ButtonPress-1>', lambda event: self.jog("+")) self.jog_pos_btn.bind('<ButtonRelease-1>', lambda event: self.jog("0")) self.jog_neg_btn.bind('<ButtonPress-1>', lambda event: self.jog("-")) self.jog_neg_btn.bind('<ButtonRelease-1>', lambda event: self.jog("0")) def jog(self, direction): #Calculate the speed as a percentage of the maximum velocity velocity = float(self.speed.get()) * self.max_velocity #Apply invert if necessary if self.invert == TRUE: velocity *= -1 #Command Movement if direction == "+": self.axis.setTargetVelocity(velocity) elif direction == "-": self.axis.setTargetVelocity(-1 * velocity) elif direction == "0": self.axis.setTargetVelocity(0) def update_current(self): self.current_text.set(abs(round(self.axis_current.getCurrent(), 3))) root.after(200, self.update_current) def configure(self): #current_limit, max_velocity, acceleration, invert self.window = popupWindow(self.master, self.current_limit, self.max_velocity, self.acceleration, self.invert) self.configure_btn.config(state=DISABLED) self.master.wait_window(self.window.top) self.configure_btn.config(state=NORMAL) #Set the new parameters from the configuration window self.current_limit = self.window.current_limit self.max_velocity = self.window.max_velocity self.acceleration = self.window.acceleration self.invert = self.window.invert.get() #Update Phidget parameters self.axis.setCurrentLimit(self.current_limit) self.axis.setAcceleration(self.acceleration)
C = 0 ACCEL = 2 #Line required to look for Phidget devices on the network Net.enableServerDiscovery(PhidgetServerType.PHIDGETSERVER_DEVICEREMOTE) if A: # Motor A: Setup Motor Control and Motor Current mtrA = DCMotor() mtrA.setDeviceSerialNumber(534830) mtrA.openWaitForAttachment(1000) mtrA.setAcceleration(ACCEL) aCur = CurrentInput() aCur.setDeviceSerialNumber(534830) aCur.openWaitForAttachment(1000) if B: # Motor B: Setup Motor Control and Motor Current mtrB = DCMotor() mtrB.setDeviceSerialNumber(465371) mtrB.openWaitForAttachment(1000) mtrB.setAcceleration(ACCEL) bCur = CurrentInput() bCur.setDeviceSerialNumber(465371) bCur.openWaitForAttachment(1000) if C: # Motor C: Setup Motor Control and Motor Current
def __init__(self): self.motor_current_publisher = rospy.Publisher('phidgetsensor/motor_current_draw', Float64, queue_size=10) self.voltage_publisher = rospy.Publisher('phidgetsensor/battery_voltage' , Float64, queue_size=10) self.battery_current_publisher = rospy.Publisher('phidgetsensor/battery_current_draw', Float64, queue_size=10) self._hz = 10 #Channel 1 will be the motor_current_draw ch1 = CurrentInput() channelInfo = ChannelInfo() channelInfo.deviceSerialNumber = 539331 channelInfo.hubPort = 2 channelInfo.isHubPortDevice = 0 channelInfo.channel = 0 ch1.setDeviceSerialNumber(channelInfo.deviceSerialNumber) ch1.setHubPort(channelInfo.hubPort) ch1.setIsHubPortDevice(channelInfo.isHubPortDevice) ch1.setChannel(channelInfo.channel) ch1.setOnAttachHandler(self.onAttachHandler) ch1.setOnDetachHandler(self.onDetachHandler) ch1.setOnErrorHandler(self.onErrorHandler) ch1.setOnCurrentChangeHandler(self.onCurrentChangeHandler_m) try: ch1.openWaitForAttachment(5000) except PhidgetException as e: PrintOpenErrorMessage(e, ch1) raise EndProgramSignal("Program Terminated: Open ch1 failed") #channel 2 will be the battery voltage ch2 = VoltageInput() channelInfo = ChannelInfo() channelInfo.deviceSerialNumber = 539331 channelInfo.hubPort = 1 channelInfo.isHubPortDevice = 0 channelInfo.channel = 0 ch2.setDeviceSerialNumber(channelInfo.deviceSerialNumber) ch2.setHubPort(channelInfo.hubPort) ch2.setIsHubPortDevice(channelInfo.isHubPortDevice) ch2.setChannel(channelInfo.channel) ch2.setOnAttachHandler(self.onAttachHandler) ch2.setOnDetachHandler(self.onDetachHandler) ch2.setOnErrorHandler(self.onErrorHandler) ch2.setOnVoltageChangeHandler(self.onVoltageChangeHandler) try: ch2.openWaitForAttachment(5000) except PhidgetException as e: PrintOpenErrorMessage(e, ch2) raise EndProgramSignal("Program Terminated: Open ch2 failed") #channel 3 will be the battery current ch3 = CurrentInput() channelInfo = ChannelInfo() channelInfo.deviceSerialNumber = 539331 channelInfo.hubPort = 0 channelInfo.isHubPortDevice = 0 channelInfo.channel = 0 ch3.setDeviceSerialNumber(channelInfo.deviceSerialNumber) ch3.setHubPort(channelInfo.hubPort) ch3.setIsHubPortDevice(channelInfo.isHubPortDevice) ch3.setChannel(channelInfo.channel) ch3.setOnAttachHandler(self.onAttachHandler) ch3.setOnDetachHandler(self.onDetachHandler) ch3.setOnErrorHandler(self.onErrorHandler) ch3.setOnCurrentChangeHandler(self.onCurrentChangeHandler_b) try: ch3.openWaitForAttachment(5000) except PhidgetException as e: PrintOpenErrorMessage(e, ch3) raise EndProgramSignal("Program Terminated: Open ch3 failed")
""" Name: Ori Shadmon description: code for Spatial sensors (Acceleration, Gyroscope, Magnometer) URL: https://www.phidgets.com/?tier=3&catid=10&pcid=8&prodid=975 """ import time from Phidget22.Devices.CurrentInput import * from Phidget22.PhidgetException import * from Phidget22.Phidget import * from Phidget22.Net import * ch = CurrentInput() ch.setDeviceSerialNumber(561266) ch.setHubPort(3) ch.setIsHubPortDevice(False) ch.setChannel(0) ch.openWaitForAttachment(5000) try: ch.getCurrent() except Exception as e: pass time.sleep(2) print(ch.getCurrent())
def __init__(self): self.motor_current_publisher = rospy.Publisher( 'phidgetsensor/motor_current_draw', Float64, queue_size=10) self.voltage_publisher = rospy.Publisher( 'phidgetsensor/battery_voltage', Float64, queue_size=10) self.battery_current_publisher = rospy.Publisher( 'phidgetsensor/battery_current_draw', Float64, queue_size=10) self._hz = 10 #Channel 1 will be the motor_current_draw ch1 = CurrentInput() channelInfo = ChannelInfo() channelInfo.deviceSerialNumber = 539331 channelInfo.hubPort = 2 channelInfo.isHubPortDevice = 0 channelInfo.channel = 0 ch1.setDeviceSerialNumber(channelInfo.deviceSerialNumber) ch1.setHubPort(channelInfo.hubPort) ch1.setIsHubPortDevice(channelInfo.isHubPortDevice) ch1.setChannel(channelInfo.channel) ch1.setOnAttachHandler(self.onAttachHandler) ch1.setOnDetachHandler(self.onDetachHandler) ch1.setOnErrorHandler(self.onErrorHandler) ch1.setOnCurrentChangeHandler(self.onCurrentChangeHandler_m) try: ch1.openWaitForAttachment(5000) except PhidgetException as e: PrintOpenErrorMessage(e, ch1) raise EndProgramSignal("Program Terminated: Open ch1 failed") #channel 2 will be the battery voltage ch2 = VoltageInput() channelInfo = ChannelInfo() channelInfo.deviceSerialNumber = 539331 channelInfo.hubPort = 1 channelInfo.isHubPortDevice = 0 channelInfo.channel = 0 ch2.setDeviceSerialNumber(channelInfo.deviceSerialNumber) ch2.setHubPort(channelInfo.hubPort) ch2.setIsHubPortDevice(channelInfo.isHubPortDevice) ch2.setChannel(channelInfo.channel) ch2.setOnAttachHandler(self.onAttachHandler) ch2.setOnDetachHandler(self.onDetachHandler) ch2.setOnErrorHandler(self.onErrorHandler) ch2.setOnVoltageChangeHandler(self.onVoltageChangeHandler) try: ch2.openWaitForAttachment(5000) except PhidgetException as e: PrintOpenErrorMessage(e, ch2) raise EndProgramSignal("Program Terminated: Open ch2 failed") #channel 3 will be the battery current ch3 = CurrentInput() channelInfo = ChannelInfo() channelInfo.deviceSerialNumber = 539331 channelInfo.hubPort = 0 channelInfo.isHubPortDevice = 0 channelInfo.channel = 0 ch3.setDeviceSerialNumber(channelInfo.deviceSerialNumber) ch3.setHubPort(channelInfo.hubPort) ch3.setIsHubPortDevice(channelInfo.isHubPortDevice) ch3.setChannel(channelInfo.channel) ch3.setOnAttachHandler(self.onAttachHandler) ch3.setOnDetachHandler(self.onDetachHandler) ch3.setOnErrorHandler(self.onErrorHandler) ch3.setOnCurrentChangeHandler(self.onCurrentChangeHandler_b) try: ch3.openWaitForAttachment(5000) except PhidgetException as e: PrintOpenErrorMessage(e, ch3) raise EndProgramSignal("Program Terminated: Open ch3 failed")